Cognitivism (psychology)

In psychology, cognitivism is a theoretical framework for understanding the mind that gained credence in the 1950s. The movement was a response to behaviorism, which cognitivists said neglected to explain cognition. Cognitive psychology derived its name from the Latin cognoscere, referring to knowing and information, thus cognitive psychology is an information-processing psychology derived in part from earlier traditions of the investigation of thought and problem solving.[1][2]

Behaviorists acknowledged the existence of thinking but identified it as a behavior. Cognitivists argued that the way people think impacts their behavior and therefore cannot be a behavior in and of itself. Cognitivists later argued that thinking is so essential to psychology that the study of thinking should become its own field.[2] However, cognitivists typically presuppose a specific form of mental activity, of the kind advanced by computationalism.

Cognitivism has more recently been challenged by postcognitivism.

Cognitive development

The process of assimilating and expanding our intellectual horizon is termed as cognitive development. We have a complex physiological structure that absorbs a variety of stimuli from the environment, stimuli being the interactions that are able to produce knowledge and skills. Parents process knowledge informally in the home while teachers process knowledge formally in school. Knowledge should be pursued with zest and zeal; if not, then learning becomes a burden.[3]

Attention

Attention is the first part of cognitive development. It pertains to a person's ability to focus and sustain concentration.[4] Attention can also be how focus minded an individual is and having their full concentration on one thing.[5] It is differentiated from other temperamental characteristics like persistence and distractibility in the sense that the latter modulates an individual's daily interaction with the environment.[4] Attention, on the other hand, involves his behavior when performing specific tasks.[4] Learning, for instance, takes place when the student gives attention towards the teacher. Interest and effort closely relate to attention. Attention is an active process which involves numerous outside stimuli. The attention of an organism at any point in time involves three concentric circles; beyond awareness, margin, and focus.[6] Individuals have a mental capacity; there are only so many things someone can focus on at one time.

A theory of cognitive development called information processing holds that memory and attention are the foundation of cognition. It is suggested that children's attention is initially selective and is based on situations that are important to their goals.[7] This capacity increases as the child grows older since they are more able to absorb stimuli from tasks.[7] Another conceptualization classified attention into mental attention and perceptual attention. The former is described as the executive-driven attentional "brain energy" that activates task-relevant processes in the brain while the latter are immediate or spontaneous attention driven by novel perceptual experiences.[8]

Process of learning

Cognitive theory mainly stresses the acquisition of knowledge and growth of the mental structure. Cognitive theory tends to focus on conceptualizing the student's learning process: how information is received; how information is processed and organized into existing schema; how information is retrieved upon recall. In other words, cognitive theory seeks to explain the process of knowledge acquisition and the subsequent effects on the mental structures within the mind. Learning is not about the mechanics of what a learner does, but rather a process depending on what the learner already knows (existing information) and their method of acquiring new knowledge (how they integrate new information into their existing schemas).[9] Knowledge acquisition is an activity consisting of internal codification of mental structures within the student's mind. Inherent to the theory, the student must be an active participant in their own learning process. Cognitive approaches mainly focus on the mental activities of the learner like mental planning, goal setting, and organizational strategies.[10] In cognitive theories not only the environmental factors and instructional components play an important role in learning. There are additional key elements like learning to code, transform, rehearse, and store and retrieve the information. The learning process includes learner's thoughts, beliefs, and attitude values.[11][12]

Role of memory

Memory plays a vital role in the learning process. Information is stored within memory in an organised, meaningful manner. Here, teacher and designers play different roles in the learning process. Teachers supposedly facilitate learning and the organization of information in an optimal way. Whereas designers supposedly use advanced techniques (such as analogies and hierarchical relationships) to help learners acquire new information to add to their prior knowledge. Forgetting is described as an inability to retrieve information from memory. Memory loss may be a mechanism used to discard situationally irrelevant information by assessing the relevance of newly acquired information.[13]

Process of transfer

According to cognitive theory, if a learner knows how to implement knowledge in different contexts and conditions then we can say that transfer has occurred.[14] Understanding is composed of knowledge - in the form of rules, concepts and discrimination.[15] Knowledge stored in memory is important, but the use of such knowledge is also important. Prior knowledge will be used for identifying similarities and differences between itself and novel information.[16]

Types of learning explained in detail by this position

Cognitive theory mostly explains complex forms of learning in terms of reasoning, problem solving and information processing.[14] Emphasis must be placed on the fact that the goal of all aforementioned viewpoints is considered to be the same - the transfer of knowledge to the student in the most efficient and effective manner possible.[17] Simplification and standardization are two techniques used to enhance the effectiveness and efficiency of knowledge transfer. Knowledge can be analysed, decomposed and simplified into basic building blocks. There is a correlation with the behaviorist model of the knowledge transfer environment. Cognitivists stress the importance of efficient processing strategies.[18]

Basic principles of the cognitive theory and relevance to instructional design

A behaviorist uses feedback (reinforcement) to change the behavior in the desired direction, while the cognitivist uses the feedback for guiding and supporting the accurate mental connections.[19] For different reasons learners' task analyzers are critical to both cognitivists and behaviorists. Cognitivists look at the learner's predisposition to learning (How does the learner activate, maintain, and direct his/her learning?).[19] Additionally, cognitivists examine the learner's 'how to design' instruction that it can be assimilated. (i.e., what about the learners existing mental structures?) In contrast, the behaviorists look at learners how to determine where the lesson should begin (i.e., at what level the learners are performing successfully?) and what are the most effective reinforcements (i.e., What are the consequences that are most desired by the learner?).

There are some specific assumptions or principles that direct the instructional design: active involvement of the learner in the learning process, learner control, metacognitive training (e.g., self-planning, monitoring, and revising techniques), the use of hierarchical analyses to identify and illustrate prerequisite relationships (cognitive task analysis procedure), facilitating optimal processing of structuring, organizing and sequencing information (use of cognitive strategies such as outlining, summaries, synthesizers, advance organizers etc.), encouraging the students to make connections with previously learned material, and creating learning environments (recall of prerequisite skills; use of relevant examples, analogies).

Structuring instruction

Cognitive theories emphasize mainly on making knowledge meaningful and helping learners to organizing relate new information to existing knowledge in memory . Instruction should be based on students existing schema or mental structures, to be effective. The organisation of information is connected in such a manner that it should relate to the existing knowledge in some meaningful way. The examples of cognitive strategy are Analogies metaphors. The other cognitive strategies includes the use of framing, outlining the mnemonics, concept mapping, advance organizers and so forth.[20] The cognitive theory mainly emphasizes the major tasks of the teacher / designer and includes analyzing that various learning experiences to the learning situation which can impact learning outcomes of different individuals. Organizing and structuring the new information to connect the learners previously acquired knowledge abilities and experiences. The new information is effectively and efficiently assimilated/accommodated within the learners cognitive structure.[21]

Theoretical approach

Cognitivism has two major components, one methodological, the other theoretical. Methodologically, cognitivism has a positivist approach and says that psychology can be (in principle) fully explained by the use of the scientific method, there is speculation on whether or not this is true.[22] This is also largely a reductionist goal, with the belief that individual components of mental function (the 'cognitive architecture') can be identified and meaningfully understood.[23] The second says that cognition contains discrete and internal mental states (representations or symbols) that can be changed using rules or algorithms.[22]

Cognitivism became the dominant force in psychology in the late-20th century, replacing behaviorism as the most popular paradigm for understanding mental function. Cognitive psychology is not a wholesale refutation of behaviorism, but rather an expansion that accepts that mental states exist. This was due to the increasing criticism towards the end of the 1950s of simplistic learning models. One of the most notable criticisms was Noam Chomsky's argument that language could not be acquired purely through conditioning, and must be at least partly explained by the existence of internal mental states.

The main issues that interest cognitive psychologists are the inner mechanisms of human thought and the processes of knowing. Cognitive psychologists have attempted to shed some light on the alleged mental structures that stand in a causal relationship to our physical actions.

Criticisms of psychological cognitivism

In the 1990s, various new theories emerged and challenged cognitivism and the idea that thought was best described as computation. Some of these new approaches, often influenced by phenomenological and postmodern philosophy, include situated cognition, distributed cognition, dynamicism and embodied cognition. Some thinkers working in the field of artificial life (for example Rodney Brooks) have also produced non-cognitivist models of cognition. On the other hand, much of early cognitive psychology, and the work of many currently active cognitive psychologists does not treat cognitive processes as computational. The idea that mental functions can be described as information processing models has been criticised by philosopher John Searle and mathematician Roger Penrose who both argue that computation has some inherent shortcomings which cannot capture the fundamentals of mental processes.

  • Penrose uses Gödel's incompleteness theorem (which states that there are mathematical truths which can never be proven in a sufficiently strong mathematical system; any sufficiently strong system of axioms will also be incomplete) and Turing's halting problem (which states that there are some things which are inherently non-computable) as evidence for his position.
  • Searle has developed two arguments, the first (well known through his Chinese room thought experiment) is the 'syntax is not semantics' argument—that a program is just syntax, while understanding requires semantics; therefore programs (hence cognitivism) cannot explain understanding. Such an argument presupposes the controversial notion of a private language. The second, which Searle now prefers but is less well known, is his 'syntax is not physics' argument—nothing in the world is intrinsically a computer program except as applied, described, or interpreted by an observer, so either everything can be described as a computer and trivially a brain can but then this does not explain any specific mental processes, or there is nothing intrinsic in a brain that makes it a computer (program). Many oppose these views and have criticized his arguments, which have created significant disagreement.[24] Both points, Searle claims, refute cognitivism.

Another argument against cognitivism is the problems of Ryle's Regress or the homunculus fallacy. Cognitivists have offered a number of arguments attempting to refute these attacks.

See also

References

  1. Mandler, G. (2002). Origins of the cognitive (r)evolution. Journal of the History of the Behavioral Sciences, 38, 339–353
  2. Lilienfeld, S.; Lynn, S. J.; Namy, L.; Woolf, N. (2010), Psychology: A Framework for Everyday Thinking, Pearson, pp. 24–28, ISBN 978-0-205-65048-4
  3. General Psychology (First edition, 2004 ed.). Neelkamal. p. 60.
  4. Siegel, L. S.; Morrison, F. J. (2012-12-06). Cognitive Development in Atypical Children: Progress in Cognitive Development Research. Springer Science & Business Media. ISBN 9781461250364.
  5. Friedrich, Frances (2019-06-28), "7.2 Attention", Introduction to Psychology, University of Saskatchewan Open Press, retrieved 2021-03-18
  6. General Psychology (First edition, 2004 ed.). Neelkamal. p. 59.
  7. Pendergast, Donna; Main, Katherine (2019-01-07). Teaching Primary Years: Rethinking curriculum, pedagogy and assessment. Allen & Unwin. ISBN 9781760870362.
  8. Barrouillet, Pierre; Gaillard, Vinciane (2010-12-21). Cognitive Development and Working Memory: A Dialogue between Neo-Piagetian Theories and Cognitive Approaches. Psychology Press. ISBN 9781136930058.
  9. Kurt, Dr Serhat (2023-10-25). "Cognitivism Learning Theory, Strategies and Examples". Educational Technology. Retrieved 2023-10-25.
  10. Shell, 1980
  11. Winna, 1988
  12. Ertmer, Peggy A.; Newby, Timothy J. (1993). "Behaviorism, Cognitivism, Constructivism: Comparing Critical Features from an Instructional Design Perspective" (PDF). Performance Improvement Quarterly. Wiley. 6 (4): 50–72. doi:10.1111/j.1937-8327.1993.tb00605.x. ISSN 0898-5952. Archived from the original (PDF) on 2015-04-13.
  13. "Teaching Cognitivism".
  14. Schunk, 1991
  15. Duffy and Jonassen, 1991
  16. "Cognitivism". Learning Theories. Archived from the original on 2022-08-04.
  17. Bednar et al., 1991
  18. "Teaching and Learning Cognitivism". Teaching and Learning Resources (Wiki).
  19. Thompson, A., Simonson, M., & Hargrave, C. (1992). Educational technology: A review of the research. Washington, DC: Association for Educational Communications and Technology.
  20. West, Charles K., James A. Farmer, and Phillip M. Wolff. Instructional design: Implications from cognitive science. Prentice Hall, 1991.
  21. Stepich and Newby, 1988
  22. "Cognitivism". Psyche Games. Retrieved 2020-01-29.
  23. "Components of Cognitive Theory: Learning Sciences Resource Guide". canvas.vt.edu. Archived from the original on 2020-07-18. Retrieved 2020-05-15.
  24. "Chinese Room Argument", Encyclopedia of Neuroscience, 2009, p. 697, doi:10.1007/978-3-540-29678-2_990, ISBN 978-3-540-23735-8

Further reading

  • Costall, A. and Still, A. (eds) (1987) Cognitive Psychology in Question. Brighton: Harvester Press Ltd. ISBN 0-7108-1057-1
  • Searle, J. R. Is the brain a digital computer APA Presidential Address
  • Wallace, B ., Ross, A., Davies, J.B., and Anderson T., (eds) (2007) The Mind, the Body and the World: Psychology after Cognitivism. London: Imprint Academic. ISBN 978-1-84540-073-6
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